#
# This file is part of ruby-ffi.
# For licensing, see LICENSE.SPECS
#

require File.expand_path(File.join(File.dirname(__FILE__), "spec_helper"))

module CallbackSpecs
  describe "Callback" do
  #  module LibC
  #    extend FFI::Library
  #    callback :qsort_cmp, [ :pointer, :pointer ], :int
  #    attach_function :qsort, [ :pointer, :int, :int, :qsort_cmp ], :int
  #  end
  #  it "arguments get passed correctly" do
  #    p = MemoryPointer.new(:int, 2)
  #    p.put_array_of_int32(0, [ 1 , 2 ])
  #    args = []
  #    cmp = proc do |p1, p2| args.push(p1.get_int(0)); args.push(p2.get_int(0)); 0; end
  #    # this is a bit dodgey, as it relies on qsort passing the args in order
  #    LibC.qsort(p, 2, 4, cmp)
  #    args.should == [ 1, 2 ]
  #  end
  #
  #  it "Block can be substituted for Callback as last argument" do
  #    p = MemoryPointer.new(:int, 2)
  #    p.put_array_of_int32(0, [ 1 , 2 ])
  #    args = []
  #    # this is a bit dodgey, as it relies on qsort passing the args in order
  #    LibC.qsort(p, 2, 4) do |p1, p2|
  #      args.push(p1.get_int(0))
  #      args.push(p2.get_int(0))
  #      0
  #    end
  #    args.should == [ 1, 2 ]
  #  end
    module LibTest
      extend FFI::Library
      ffi_lib TestLibrary::PATH
      class S8F32S32 < FFI::Struct
        layout :s8, :char, :f32, :float, :s32, :int
      end

      callback :cbVrS8, [ ], :char
      callback :cbVrU8, [ ], :uchar
      callback :cbVrS16, [ ], :short
      callback :cbVrU16, [ ], :ushort
      callback :cbVrS32, [ ], :int
      callback :cbVrU32, [ ], :uint
      callback :cbVrL, [ ], :long
      callback :cbVrUL, [ ], :ulong
      callback :cbVrF, [ ], :float
      callback :cbVrD, [ ], :double
      callback :cbVrS64, [ ], :long_long
      callback :cbVrU64, [ ], :ulong_long
      callback :cbVrP, [], :pointer
      callback :cbVrZ, [], :bool
      callback :cbCrV, [ :char ], :void
      callback :cbSrV, [ :short ], :void
      callback :cbIrV, [ :int ], :void
      callback :cbLrV, [ :long ], :void
      callback :cbULrV, [ :ulong ], :void
      callback :cbLLrV, [ :long_long ], :void
      callback :cbVrT, [ ], S8F32S32.by_value
      callback :cbTrV, [ S8F32S32.by_value ], :void
      callback :cbYrV, [ S8F32S32.ptr ], :void
      callback :cbVrY, [ ], S8F32S32.ptr

      attach_function :testCallbackVrS8, :testClosureVrB, [ :cbVrS8 ], :char
      attach_function :testCallbackVrU8, :testClosureVrB, [ :cbVrU8 ], :uchar
      attach_function :testCallbackVrS16, :testClosureVrS, [ :cbVrS16 ], :short
      attach_function :testCallbackVrU16, :testClosureVrS, [ :cbVrU16 ], :ushort
      attach_function :testCallbackVrS32, :testClosureVrI, [ :cbVrS32 ], :int
      attach_function :testCallbackVrU32, :testClosureVrI, [ :cbVrU32 ], :uint
      attach_function :testCallbackVrF, :testClosureVrF, [ :cbVrF ], :float
      attach_function :testCallbackVrD, :testClosureVrD, [ :cbVrD ], :double
      attach_function :testCallbackVrL, :testClosureVrL, [ :cbVrL ], :long
      attach_function :testCallbackVrZ, :testClosureVrZ, [ :cbVrZ ], :bool
      attach_function :testCallbackVrUL, :testClosureVrL, [ :cbVrUL ], :ulong
      attach_function :testCallbackVrS64, :testClosureVrLL, [ :cbVrS64 ], :long_long
      attach_function :testCallbackVrU64, :testClosureVrLL, [ :cbVrU64 ], :ulong_long
      attach_function :testCallbackVrP, :testClosureVrP, [ :cbVrP ], :pointer
      attach_function :testCallbackReturningFunction, :testClosureVrP, [ :cbVrP ], :cbVrP
      attach_function :testCallbackVrY, :testClosureVrP, [ :cbVrY ], S8F32S32.ptr
      if RUBY_ENGINE != "truffleruby" # struct by value not yet supported on TruffleRuby
        attach_function :testCallbackVrT, :testClosureVrT, [ :cbVrT ], S8F32S32.by_value
        attach_function :testCallbackTrV, :testClosureTrV, [ :cbTrV, S8F32S32.ptr ], :void
      end
      attach_variable :cbVrS8, :gvar_pointer, :cbVrS8
      attach_variable :pVrS8, :gvar_pointer, :pointer
      attach_function :testGVarCallbackVrS8, :testClosureVrB, [ :pointer ], :char
      attach_function :testOptionalCallbackCrV, :testOptionalClosureBrV, [ :cbCrV, :char ], :void
    end

    it "returning :char (0)" do
      expect(LibTest.testCallbackVrS8 { 0 }).to eq(0)
    end

    it "returning :char (127)" do
      expect(LibTest.testCallbackVrS8 { 127 }).to eq(127)
    end

    it "returning :char (-128)" do
      expect(LibTest.testCallbackVrS8 { -128 }).to eq(-128)
    end
    # test wrap around
    it "returning :char (128)" do
      expect(LibTest.testCallbackVrS8 { 128 }).to eq(-128)
    end

    it "returning :char (255)" do
      expect(LibTest.testCallbackVrS8 { 0xff }).to eq(-1)
    end

    it "returning :uchar (0)" do
      expect(LibTest.testCallbackVrU8 { 0 }).to eq(0)
    end

    it "returning :uchar (0xff)" do
      expect(LibTest.testCallbackVrU8 { 0xff }).to eq(0xff)
    end

    it "returning :uchar (-1)" do
      expect(LibTest.testCallbackVrU8 { -1 }).to eq(0xff)
    end

    it "returning :uchar (128)" do
      expect(LibTest.testCallbackVrU8 { 128 }).to eq(128)
    end

    it "returning :uchar (-128)" do
      expect(LibTest.testCallbackVrU8 { -128 }).to eq(128)
    end

    it "returning :short (0)" do
      expect(LibTest.testCallbackVrS16 { 0 }).to eq(0)
    end

    it "returning :short (0x7fff)" do
      expect(LibTest.testCallbackVrS16 { 0x7fff }).to eq(0x7fff)
    end
    # test wrap around
    it "returning :short (0x8000)" do
      expect(LibTest.testCallbackVrS16 { 0x8000 }).to eq(-0x8000)
    end

    it "returning :short (0xffff)" do
      expect(LibTest.testCallbackVrS16 { 0xffff }).to eq(-1)
    end

    it "returning :ushort (0)" do
      expect(LibTest.testCallbackVrU16 { 0 }).to eq(0)
    end

    it "returning :ushort (0x7fff)" do
      expect(LibTest.testCallbackVrU16 { 0x7fff }).to eq(0x7fff)
    end

    it "returning :ushort (0x8000)" do
      expect(LibTest.testCallbackVrU16 { 0x8000 }).to eq(0x8000)
    end

    it "returning :ushort (0xffff)" do
      expect(LibTest.testCallbackVrU16 { 0xffff }).to eq(0xffff)
    end

    it "returning :ushort (-1)" do
      expect(LibTest.testCallbackVrU16 { -1 }).to eq(0xffff)
    end

    it "returning :int (0)" do
      expect(LibTest.testCallbackVrS32 { 0 }).to eq(0)
    end

    it "returning :int (0x7fffffff)" do
      expect(LibTest.testCallbackVrS32 { 0x7fffffff }).to eq(0x7fffffff)
    end
    # test wrap around
    it "returning :int (-0x80000000)" do
      expect(LibTest.testCallbackVrS32 { -0x80000000 }).to eq(-0x80000000)
    end

    it "returning :int (-1)" do
      expect(LibTest.testCallbackVrS32 { -1 }).to eq(-1)
    end

    it "returning :uint (0)" do
      expect(LibTest.testCallbackVrU32 { 0 }).to eq(0)
    end

    it "returning :uint (0x7fffffff)" do
      expect(LibTest.testCallbackVrU32 { 0x7fffffff }).to eq(0x7fffffff)
    end
    # test wrap around
    it "returning :uint (0x80000000)" do
      expect(LibTest.testCallbackVrU32 { 0x80000000 }).to eq(0x80000000)
    end

    it "returning :uint (0xffffffff)" do
      expect(LibTest.testCallbackVrU32 { 0xffffffff }).to eq(0xffffffff)
    end

    it "returning :uint (-1)" do
      expect(LibTest.testCallbackVrU32 { -1 }).to eq(0xffffffff)
    end

    it "returning :long (0)" do
      expect(LibTest.testCallbackVrL { 0 }).to eq(0)
    end

    it "returning :long (0x7fffffff)" do
      expect(LibTest.testCallbackVrL { 0x7fffffff }).to eq(0x7fffffff)
    end
    # test wrap around
    it "returning :long (-0x80000000)" do
      expect(LibTest.testCallbackVrL { -0x80000000 }).to eq(-0x80000000)
    end

    it "returning :long (-1)" do
      expect(LibTest.testCallbackVrL { -1 }).to eq(-1)
    end

    it "returning :ulong (0)" do
      expect(LibTest.testCallbackVrUL { 0 }).to eq(0)
    end

    it "returning :ulong (0x7fffffff)" do
      expect(LibTest.testCallbackVrUL { 0x7fffffff }).to eq(0x7fffffff)
    end
    # test wrap around
    it "returning :ulong (0x80000000)" do
      expect(LibTest.testCallbackVrUL { 0x80000000 }).to eq(0x80000000)
    end

    it "returning :ulong (0xffffffff)" do
      expect(LibTest.testCallbackVrUL { 0xffffffff }).to eq(0xffffffff)
    end

    it "Callback returning :ulong (-1)" do
      if FFI::Platform::LONG_SIZE == 32
        expect(LibTest.testCallbackVrUL { -1 }).to eq(0xffffffff)
      else
        expect(LibTest.testCallbackVrUL { -1 }).to eq(0xffffffffffffffff)
      end
    end

    it "returning :long_long (0)" do
      expect(LibTest.testCallbackVrS64 { 0 }).to eq(0)
    end

    it "returning :long_long (0x7fffffffffffffff)" do
      expect(LibTest.testCallbackVrS64 { 0x7fffffffffffffff }).to eq(0x7fffffffffffffff)
    end
    # test wrap around
    it "returning :long_long (-0x8000000000000000)" do
      expect(LibTest.testCallbackVrS64 { -0x8000000000000000 }).to eq(-0x8000000000000000)
    end

    it "returning :long_long (-1)" do
      expect(LibTest.testCallbackVrS64 { -1 }).to eq(-1)
    end

    it "returning bool" do
      expect(LibTest.testCallbackVrZ { true }).to be true
    end

    it "returning float" do
      expect(LibTest.testCallbackVrF { 1.234567890123456789 }).to be_within(1E-7).of(1.234567890123456789)
    end

    it "returning double" do
      expect(LibTest.testCallbackVrD { 1.234567890123456789 }).to be_within(1E-15).of(1.234567890123456789)
    end

    it "returning :pointer (nil)" do
      expect(LibTest.testCallbackVrP { nil }).to be_null
    end

    it "returning :pointer (MemoryPointer)" do
      p = FFI::MemoryPointer.new :long
      expect(LibTest.testCallbackVrP { p }).to eq(p)
    end

    it "returning a callback function" do
      ret = LibTest.testCallbackReturningFunction { FFI::Pointer.new(42) }
      expect(ret).to be_kind_of(FFI::Function)
      expect(ret.address).to eq(42)
    end

    it "returning struct by value" do
      skip "not yet supported on TruffleRuby" if RUBY_ENGINE == "truffleruby"
      skip "Segfault on 32 bit MINGW" if RUBY_PLATFORM == 'i386-mingw32'
      s = LibTest::S8F32S32.new
      s[:s8] = 0x12
      s[:s32] = 0x1eefbeef
      s[:f32] = 1.234567
      ret = LibTest.testCallbackVrT { s }
      expect(ret[:s8]).to eq(s[:s8])
      expect(ret[:f32]).to eq(s[:f32])
      expect(ret[:s32]).to eq(s[:s32])

    end

    it "struct by value parameter" do
      skip "not yet supported on TruffleRuby" if RUBY_ENGINE == "truffleruby"
      s = LibTest::S8F32S32.new
      s[:s8] = 0x12
      s[:s32] = 0x1eefbeef
      s[:f32] = 1.234567
      s2 = LibTest::S8F32S32.new

      LibTest.testCallbackTrV(s) do |struct|
        s2[:s8] = struct[:s8]
        s2[:f32] = struct[:f32]
        s2[:s32] = struct[:s32]
      end

      expect(s2[:s8]).to eql 0x12
      expect(s2[:s32]).to eql 0x1eefbeef
      expect(s2[:f32]).to be_within(0.0000001).of 1.234567
    end

    it "returning :string is rejected as typedef" do
      expect {
        Module.new do
          extend FFI::Library
          ffi_lib TestLibrary::PATH
          callback :cbVrA, [], :string
        end
      }.to raise_error(TypeError)
    end

    it "global variable" do
      proc = Proc.new { 0x1e }
      LibTest.cbVrS8 = proc
      expect(LibTest.testGVarCallbackVrS8(LibTest.pVrS8)).to eq(0x1e)
    end

    describe "with proc" do
      it "should be usabel for different signatures" do
        pr = proc { 42 }
        expect(LibTest.testCallbackVrS8(pr)).to eq(42)
        expect(LibTest.testCallbackVrS8(&pr)).to eq(42)
        expect(LibTest.testCallbackVrU8(pr)).to eq(42)
        expect(LibTest.testCallbackVrU8(&pr)).to eq(42)
        expect(LibTest.testCallbackVrS16(pr)).to eq(42)
        expect(LibTest.testCallbackVrS8(pr)).to eq(42)
      end

      if RUBY_ENGINE == "ruby"
        it "stores function pointers as ivar in proc object" do
          pr = proc { 42 }
          expect(LibTest.testCallbackVrS8(pr)).to eq(42)
          # A proc argument should implicit create a FFI::Function
          func = pr.instance_variable_get(:@__ffi_callback__)
          expect(func).to be_kind_of(FFI::Function)

          expect(LibTest.testCallbackVrS8(&pr)).to eq(42)
          # A proc argument should reuse FFI::Function for the same callback
          expect(pr.instance_variable_get(:@__ffi_callback__)).to be(func)
          expect(pr.instance_variable_defined?(:@__ffi_callback_table__)).to be_falsey

          expect(LibTest.testCallbackVrU8(pr)).to eq(42)
          expect(LibTest.testCallbackVrU8(&pr)).to eq(42)
          # A second callback signature (FFI::FunctionInfo) is stored in a Hash table
          expect(pr.instance_variable_get(:@__ffi_callback_table__).length).to eq(1)

          expect(LibTest.testCallbackVrS16(pr)).to eq(42)
          # A third callback signature should create another Hash entry
          expect(pr.instance_variable_get(:@__ffi_callback_table__).length).to eq(2)
        end
      end
    end

    describe "When the callback is considered optional by the underlying library" do
      it "should handle receiving 'nil' in place of the closure" do
        expect(LibTest.testOptionalCallbackCrV(nil, 13)).to be_nil
      end
    end

    describe 'when inlined' do
      it 'could be anonymous' do
        module LibTest
          extend FFI::Library
          ffi_lib TestLibrary::PATH
          attach_function :testAnonymousCallbackVrS8, :testClosureVrB, [ callback([ ], :char) ], :char
        end
        expect(LibTest.testAnonymousCallbackVrS8 { 0 }).to eq(0)
      end
    end

    describe "as return value" do

      it "should not blow up when a callback is defined that returns a callback" do
        expect(module LibTest
          extend FFI::Library
          ffi_lib TestLibrary::PATH
          callback :cb_return_type_1, [ :short ], :short
          callback :cb_lookup_1, [ :short ], :cb_return_type_1
          attach_function :testReturnsCallback_1, :testReturnsClosure, [ :cb_lookup_1, :short ], :cb_return_type_1
        end).to be_an_instance_of FFI::Function
      end

      it "should return a callback" do
        module LibTest
          extend FFI::Library
          ffi_lib TestLibrary::PATH
          callback :cb_return_type, [ :int ], :int
          callback :cb_lookup, [ ], :cb_return_type
          attach_function :testReturnsCallback, :testReturnsClosure, [ :cb_lookup, :int ], :int
        end

        lookup_proc_called = false
        return_proc_called = false

        return_proc = Proc.new do |a|
          return_proc_called = true
          a * 2
        end
        lookup_proc = Proc.new do
          lookup_proc_called = true
          return_proc
        end

        val = LibTest.testReturnsCallback(lookup_proc, 0x1234)
        expect(val).to eq(0x1234 * 2)
        expect(lookup_proc_called).to be true
        expect(return_proc_called).to be true
      end

      it "should return a method callback" do
        module LibTest
          extend FFI::Library
          ffi_lib TestLibrary::PATH
          callback :cb_return_type, [ :int ], :int
          callback :cb_lookup, [ ], :cb_return_type
          attach_function :testReturnsCallback_2, :testReturnsClosure, [ :cb_lookup, :int ], :int
        end
        module MethodCallback
          def self.lookup
            method(:perform)
          end
          def self.perform num
            num * 2
          end
        end

        expect(LibTest.testReturnsCallback_2(MethodCallback.method(:lookup), 0x1234)).to eq(0x2468)
      end

      it 'should not blow up when a callback takes a callback as argument' do
        expect(module LibTest
          extend FFI::Library
          ffi_lib TestLibrary::PATH
          callback :cb_argument, [ :int ], :int
          callback :cb_with_cb_argument, [ :cb_argument, :int ], :int
          attach_function :testCallbackAsArgument_2, :testArgumentClosure, [ :cb_with_cb_argument, :int ], :int
        end).to be_an_instance_of FFI::Function
      end

      it 'should be able to use the callback argument' do
        module LibTest
          extend FFI::Library
          ffi_lib TestLibrary::PATH
          callback :cb_argument, [ :int ], :int
          callback :cb_with_cb_argument, [ :cb_argument, :int ], :int
          attach_function :testCallbackAsArgument, :testArgumentClosure, [ :cb_with_cb_argument, :cb_argument, :int ], :int
        end
        callback_arg_called = false
        callback_with_callback_arg_called = false
        callback_arg = Proc.new do |val|
          callback_arg_called = true
          val * 2
        end
        callback_with_callback_arg = Proc.new do |cb, val|
          callback_with_callback_arg_called = true
          cb.call(val)
        end
        val = LibTest.testCallbackAsArgument(callback_with_callback_arg, callback_arg, 0xff1)
        expect(val).to eq(0xff1 * 2)
        expect(callback_arg_called).to be true
        expect(callback_with_callback_arg_called).to be true
      end

      it 'function returns callable object' do
        module LibTest
          extend FFI::Library
          ffi_lib TestLibrary::PATH
          callback :funcptr, [ :int ], :int
          attach_function :testReturnsFunctionPointer, [  ], :funcptr
        end
        f = LibTest.testReturnsFunctionPointer
        expect(f.call(3)).to eq(6)
      end
    end
  end
end

module CallbackWithSpecs
  describe "Callback with " do
    #
    # Test callbacks that take an argument, returning void
    #
    module LibTest
      extend FFI::Library
      ffi_lib TestLibrary::PATH
      class S8F32S32 < FFI::Struct
        layout :s8, :char, :f32, :float, :s32, :int
      end

      callback :cbS8rV, [ :char ], :void
      callback :cbU8rV, [ :uchar ], :void
      callback :cbS16rV, [ :short ], :void
      callback :cbU16rV, [ :ushort ], :void

      callback :cbZrV, [ :bool ], :void
      callback :cbS32rV, [ :int ], :void
      callback :cbU32rV, [ :uint ], :void

      callback :cbLrV, [ :long ], :void
      callback :cbULrV, [ :ulong ], :void
      callback :cbArV, [ :string ], :void
      callback :cbPrV, [ :pointer], :void
      callback :cbYrV, [ S8F32S32.ptr ], :void

      callback :cbS64rV, [ :long_long ], :void
      attach_function :testCallbackCrV, :testClosureBrV, [ :cbS8rV, :char ], :void
      attach_function :testCallbackU8rV, :testClosureBrV, [ :cbU8rV, :uchar ], :void
      attach_function :testCallbackSrV, :testClosureSrV, [ :cbS16rV, :short ], :void
      attach_function :testCallbackU16rV, :testClosureSrV, [ :cbU16rV, :ushort ], :void
      attach_function :testCallbackZrV, :testClosureZrV, [ :cbZrV, :bool ], :void
      attach_function :testCallbackIrV, :testClosureIrV, [ :cbS32rV, :int ], :void
      attach_function :testCallbackU32rV, :testClosureIrV, [ :cbU32rV, :uint ], :void

      attach_function :testCallbackLrV, :testClosureLrV, [ :cbLrV, :long ], :void
      attach_function :testCallbackULrV, :testClosureULrV, [ :cbULrV, :ulong ], :void

      attach_function :testCallbackLLrV, :testClosureLLrV, [ :cbS64rV, :long_long ], :void
      attach_function :testCallbackArV, :testClosurePrV, [ :cbArV, :string ], :void
      attach_function :testCallbackPrV, :testClosurePrV, [ :cbPrV, :pointer], :void
      attach_function :testCallbackYrV, :testClosurePrV, [ :cbYrV, S8F32S32.in ], :void
    end

    it "function with Callback plus another arg should raise error if no arg given" do
      expect { LibTest.testCallbackCrV { |*a| }}.to raise_error(ArgumentError)
    end

    it ":char (0) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackCrV(0) { |i| v = i }
      expect(v).to eq(0)
    end

    it ":char (127) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackCrV(127) { |i| v = i }
      expect(v).to eq(127)
    end

    it ":char (-128) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackCrV(-128) { |i| v = i }
      expect(v).to eq(-128)
    end

    it ":char (-1) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackCrV(-1) { |i| v = i }
      expect(v).to eq(-1)
    end

    def testCallbackU8rV(value)
      v1 = 0xdeadbeef
      LibTest.testCallbackU8rV(value) { |i| v1 = i }
      expect(v1).to eq(value)

      # Using a FFI::Function (v2) should be consistent with the direct callback (v1)
      v2 = 0xdeadbeef
      fun = FFI::Function.new(:void, [:uchar]) { |i| v2 = i }
      LibTest.testCallbackU8rV(fun, value)
      expect(v2).to eq(value)
    end

    it ":uchar (0) argument" do
      testCallbackU8rV(0)
    end

    it ":uchar (127) argument" do
      testCallbackU8rV(127)
    end

    it ":uchar (128) argument" do
      testCallbackU8rV(128)
    end

    it ":uchar (255) argument" do
      testCallbackU8rV(255)
    end

    it ":short (0) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackSrV(0) { |i| v = i }
      expect(v).to eq(0)
    end

    it ":short (0x7fff) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackSrV(0x7fff) { |i| v = i }
      expect(v).to eq(0x7fff)
    end

    it ":short (-0x8000) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackSrV(-0x8000) { |i| v = i }
      expect(v).to eq(-0x8000)
    end

    it ":short (-1) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackSrV(-1) { |i| v = i }
      expect(v).to eq(-1)
    end

    it ":ushort (0) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackU16rV(0) { |i| v = i }
      expect(v).to eq(0)
    end

    it ":ushort (0x7fff) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackU16rV(0x7fff) { |i| v = i }
      expect(v).to eq(0x7fff)
    end

    it ":ushort (0x8000) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackU16rV(0x8000) { |i| v = i }
      expect(v).to eq(0x8000)
    end

    it ":ushort (0xffff) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackU16rV(0xffff) { |i| v = i }
      expect(v).to eq(0xffff)
    end

    it ":bool (true) argument" do
      v = false
      LibTest.testCallbackZrV(true) { |i| v = i }
      expect(v).to be true
    end

    it ":int (0) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackIrV(0) { |i| v = i }
      expect(v).to eq(0)
    end

    it ":int (0x7fffffff) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackIrV(0x7fffffff) { |i| v = i }
      expect(v).to eq(0x7fffffff)
    end

    it ":int (-0x80000000) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackIrV(-0x80000000) { |i| v = i }
      expect(v).to eq(-0x80000000)
    end

    it ":int (-1) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackIrV(-1) { |i| v = i }
      expect(v).to eq(-1)
    end

    it ":uint (0) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackU32rV(0) { |i| v = i }
      expect(v).to eq(0)
    end

    it ":uint (0x7fffffff) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackU32rV(0x7fffffff) { |i| v = i }
      expect(v).to eq(0x7fffffff)
    end

    it ":uint (0x80000000) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackU32rV(0x80000000) { |i| v = i }
      expect(v).to eq(0x80000000)
    end

    it ":uint (0xffffffff) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackU32rV(0xffffffff) { |i| v = i }
      expect(v).to eq(0xffffffff)
    end

    it ":long (0) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackLrV(0) { |i| v = i }
      expect(v).to eq(0)
    end

    it ":long (0x7fffffff) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackLrV(0x7fffffff) { |i| v = i }
      expect(v).to eq(0x7fffffff)
    end

    it ":long (-0x80000000) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackLrV(-0x80000000) { |i| v = i }
      expect(v).to eq(-0x80000000)
    end

    it ":long (-1) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackLrV(-1) { |i| v = i }
      expect(v).to eq(-1)
    end

    it ":ulong (0) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackULrV(0) { |i| v = i }
      expect(v).to eq(0)
    end

    it ":ulong (0x7fffffff) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackULrV(0x7fffffff) { |i| v = i }
      expect(v).to eq(0x7fffffff)
    end

    it ":ulong (0x80000000) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackULrV(0x80000000) { |i| v = i }
      expect(v).to eq(0x80000000)
    end

    it ":ulong (0xffffffff) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackULrV(0xffffffff) { |i| v = i }
      expect(v).to eq(0xffffffff)
    end

    it ":long_long (0) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackLLrV(0) { |i| v = i }
      expect(v).to eq(0)
    end

    it ":long_long (0x7fffffffffffffff) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackLLrV(0x7fffffffffffffff) { |i| v = i }
      expect(v).to eq(0x7fffffffffffffff)
    end

    it ":long_long (-0x8000000000000000) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackLLrV(-0x8000000000000000) { |i| v = i }
      expect(v).to eq(-0x8000000000000000)
    end

    it ":long_long (-1) argument" do
      v = 0xdeadbeef
      LibTest.testCallbackLLrV(-1) { |i| v = i }
      expect(v).to eq(-1)
    end

    it ":string argument" do
      v = nil
      LibTest.testCallbackArV("Hello, World") { |i| v = i }
      expect(v).to eq("Hello, World")
    end

    it ":string (nil) argument" do
      v = "Hello, World"
      LibTest.testCallbackArV(nil) { |i| v = i }
      expect(v).to be_nil
    end

    it ":pointer argument" do
      v = nil
      magic = FFI::Pointer.new(0xdeadbeef)
      LibTest.testCallbackPrV(magic) { |i| v = i }
      expect(v).to eq(magic)
    end

    it ":pointer (nil) argument" do
      v = "Hello, World"
      LibTest.testCallbackPrV(nil) { |i| v = i }
      expect(v).to eq(FFI::Pointer::NULL)
    end

    it "struct by reference argument" do
      v = nil
      magic = LibTest::S8F32S32.new
      LibTest.testCallbackYrV(magic) { |i| v = i }
      expect(v.class).to eq(magic.class)
      expect(v.pointer).to eq(magic.pointer)
    end

    it "struct by reference argument with nil value" do
      v = LibTest::S8F32S32.new
      LibTest.testCallbackYrV(nil) { |i| v = i }
      expect(v.is_a?(FFI::Struct)).to be true
      expect(v.pointer).to eq(FFI::Pointer::NULL)
    end

    it "varargs parameters are rejected" do
      expect {
        Module.new do
          extend FFI::Library
          ffi_lib TestLibrary::PATH
          callback :cbVrL, [ :varargs ], :long
        end
      }.to raise_error(ArgumentError)
    end

    #
    # Test stdcall convention with function and callback.
    # This is Windows 32-bit only.
    #
    if FFI::Platform::OS =~ /windows|cygwin/ && FFI::Platform::ARCH == 'i386'
      module LibTestStdcall
        extend FFI::Library
        ffi_lib TestLibrary::PATH
        ffi_convention :stdcall

        callback :cbStdcall, [ :pointer, :long ], :void
        attach_function :testCallbackStdcall, 'testClosureStdcall', [ :pointer, :cbStdcall, :long ], :bool
      end

      it "stdcall convention" do
        v = 0xdeadbeef
        po = FFI::MemoryPointer.new :long
        pr = proc{|a,i| v = a,i; i }
        res = LibTestStdcall.testCallbackStdcall(po, pr, 0x7fffffff)
        expect(v).to eq([po, 0x7fffffff])
        expect(res).to be true
      end
    end
  end
end

module CallbackInteropSpecs
  describe "Callback interop" do
    require 'fiddle'
    require 'fiddle/import'
    require 'timeout'

    module LibTestFFI
      extend FFI::Library
      ffi_lib TestLibrary::PATH
      attach_function :testCallbackVrV, :testClosureVrV, [ :pointer ], :void
      attach_function :testCallbackVrV_blocking, :testClosureVrV, [ :pointer ], :void, blocking: true
    end

    module LibTestFiddle
      extend Fiddle::Importer
      dlload TestLibrary::PATH
      extern 'void testClosureVrV(void *fp)'
    end

    def assert_callback_in_same_thread_called_once
      called = 0
      thread = nil
      yield proc {
        called += 1
        thread = Thread.current
      }
      expect(called).to eq(1)
      expect(thread).to eq(Thread.current)
    end

    it "from ffi to ffi" do
      assert_callback_in_same_thread_called_once do |block|
        func = FFI::Function.new(:void, [:pointer], &block)
        LibTestFFI.testCallbackVrV(FFI::Pointer.new(func.to_i))
      end
    end

    it "from ffi to ffi with blocking:true" do
      assert_callback_in_same_thread_called_once do |block|
        func = FFI::Function.new(:void, [:pointer], &block)
        LibTestFFI.testCallbackVrV_blocking(FFI::Pointer.new(func.to_i))
      end
    end

    # https://github.com/ffi/ffi/issues/527
    it "from fiddle to ffi" do
      assert_callback_in_same_thread_called_once do |block|
        func = FFI::Function.new(:void, [:pointer], &block)
        LibTestFiddle.testClosureVrV(Fiddle::Pointer[func.to_i])
      end
    end

    it "from ffi to fiddle" do
      skip "not yet supported on TruffleRuby" if RUBY_ENGINE == "truffleruby"
      assert_callback_in_same_thread_called_once do |block|
        func = LibTestFiddle.bind_function(:cbVrV, Fiddle::TYPE_VOID, [], &block)
        LibTestFFI.testCallbackVrV(FFI::Pointer.new(func.to_i))
      end
    end

    it "from ffi to fiddle with blocking:true" do
      skip "not yet supported on TruffleRuby" if RUBY_ENGINE == "truffleruby"
      assert_callback_in_same_thread_called_once do |block|
        func = LibTestFiddle.bind_function(:cbVrV, Fiddle::TYPE_VOID, [], &block)
        LibTestFFI.testCallbackVrV_blocking(FFI::Pointer.new(func.to_i))
      end
    end

    it "from fiddle to fiddle" do
      skip "not yet supported on TruffleRuby" if RUBY_ENGINE == "truffleruby"
      assert_callback_in_same_thread_called_once do |block|
        func = LibTestFiddle.bind_function(:cbVrV, Fiddle::TYPE_VOID, [], &block)
        LibTestFiddle.testClosureVrV(Fiddle::Pointer[func.to_i])
      end
    end

    # https://github.com/ffi/ffi/issues/527
    if RUBY_ENGINE == 'ruby'
      it "C outside ffi call stack does not deadlock [#527]" do
        skip "not yet supported on TruffleRuby" if RUBY_ENGINE == "truffleruby"

        out = external_run(RbConfig.ruby, "embed-test/embed-test.rb")
        expect(out).to match(/callback called with \["hello", 5, 0\]/)
      end
    end
  end
end
